JPH05133873A - Fissionable material detecting apparatus - Google Patents

Abstract

PURPOSE: To provide a device which can simply judge whether a matrix contains a hydrogenation material or not. CONSTITUTION: On the opposite side of a pulse neutron generator 10, two counters C and C' are provided, and one of them comprises a shield. By measuring a weight in advance, it is possible to judge whether a matrix of a drum contains a hydrogenation material. The nuclear fission material detecting device is used for controlling or testing a nuclear waste.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fissile material detection device and is used in the control and testing of nuclear waste.

[0002]

It is possible to use thermal neutrons obtained from pulsed sources with thermalization means to control fissile materials in nuclear waste. It has been known. In the waste to be controlled, the neutrons can produce fission neutrons if the waste contains fissile material. Detection of these materials would therefore be equivalent to detection of fission neutrons.

French Patent Application No. FR-A-25880
No. 85 discloses the apparatus shown in FIG. 1 using the above method. This device includes a converter unit 1
It consists of a pulsed neutron generator 10 surrounded by 2. The generator consists of an oblong cylindrical envelope in which a titanium tritiated target is housed. One end of this generator is connected by cable 14 to a very high voltage supply 16,
The other end is connected to the electronic box 18 by a cable 17. The converter unit 12 is a lead cylinder with a height of about 15 cm and a thickness of 5 cm.
It is the height of the neutron producing target and is installed around the cylindrical generator level.

The generator-converter device is placed at the corners of a dihedral prism formed by two panels 21,22, each panel being formed from four polyethylene modules as shown. Three of these are
It is a solid, the fourth is hollow and the detection units 23, 24
Can be accommodated. These units are housed in each case consisting of three helium counters 3 (type 65NH45) surrounded by cadmium and B4C. These six counters
Connected to the electronic circuit 28 by cables 25 and 26, the panels 21, 22 are placed on a support 30,
Form a defined angle.

These two objects are the objects to be controlled or inspected.
It is installed in the space between two panels. Generally, the object is a drum of matrix, which can contain fissile material. However, the results of the measurements carried out by such devices give incorrect results as a result of the composition of the matrix, especially if the latter is composed of hydrogenated material (vinyl material). If you know the matrix material,
The account can correct the measurement results by taking the above into consideration. However, in many cases the composition of the matrix is unknown. Therefore, it is necessary to measure the lifetime of neutrons in space based on time. However, this method is complicated and time consuming.

It is an object of the present invention to solve the above problems by providing a device which makes it possible to determine by a simple method whether or not the matrix contains a hydrogenated material.

[0007]

In addition to the means described above, the device according to the invention consists of two counters mounted one above the other on the opposite side of the pulsed neutron generator, these two counters being tested. Installed symmetrically with respect to the center plane of the drum to be mounted, one of these is covered by a neutron shield, and the two counters are made of various materials, including hydrogenated materials, and are preloaded. It is measured by various uniform matrices of known thickness.

Counting with a shielded counter can determine whether the matrix is composed of light weight material or heavy material, and with an unshielded counter, if light weight material, hydrogenated material. The existence of can be established.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT FIG. 2 shows a fissile material detector, such as that shown in FIG. 1, in which there is a pulsed neutron generator 10 connected to a high pressure supply 16. The space in which the drum 40 to be tested or controlled can be installed is the part formed by the parallelepiped 42.

The two counters C, C'are located in the measuring space and are arranged on the same vertical axis on either side of the intermediate surface of the drum. These are Type 1.3 NH4 XE
It can be the helium counter 3 of RAM. Counter C is not shielded, while counter C'is covered by a neutron shield, for example a neutron shield made of cadmium.

The curve of FIG. 3 is plotted using a shield equipped counter C '. The abscissa plots the weight of the matrix in kg and the ordinate plots the count rate.

Lines a, b, c and d each correspond to a homogeneous matrix of stainless steel, graphite, vinyl and cellulose.

FIG. 4 relates to an unshielded counter C, in which the abscissa plots the weight of the matrix in kg and the ordinate plots the count speed. Lines e, f, g, and h each correspond to a uniform matrix of stainless steel, graphite, vinyl, and cellulose.

In this way, counting with the shield-equipped counter C ′ makes it possible to immediately determine to which category the matrix to be examined belongs, ie that of a lightweight matrix (cellulose or vinyl). , Or of a weight matrix (steel or graphite).

Counting with the unshielded counter C allows the determination between cellulose and vinyl.

Therefore, by performing the double counting by the counters C and C ', it is immediately determined whether or not the matrix is formed of the hydrogenated material, and
It is possible to determine if it is vinyl.

[Brief description of drawings]

FIG. 1 is a diagram showing a conventional device.

FIG. 2 shows a device according to the invention.

FIG. 3 is a diagram showing a measurement curve obtained by a counter equipped with a shield.

FIG. 4 is a diagram showing a measurement curve obtained by an unshielded counter.

[Explanation of symbols]

 10 generator 21, 22 thermalization means 23, 24 detection means 42 measurement space C, C'counter

Claims (2)

[Claims] 1. A measuring space (42) capable of receiving a drum (40) of a matrix capable of containing a fissile material capable of being hydrogenated, at one end of the measuring space (42). Has a pulsed neutron generator (10), and the measurement space (42) is surrounded by means (21, 22) for thermalizing neutrons emitted from a pulsed thermal neutron source and by a fissile material. In the fissile material detection device provided with the above-mentioned detection means (23, 24) for split neutrons, a pulse source is provided on the opposite side of the pulse neutron generator (10) and in the measurement space (42). Two counters (C, C ') which are sensitive to the emitted neutrons and which are symmetrically arranged with respect to the intermediate plane of the drum (40) to be inspected.
And one of the two counters (C, C ') is covered by a neutron shield, and the two counters are made of various materials containing hydrogenated materials. It has been measured with various uniform matrices of known weight.
A shielded counter (C ') is used to determine if the matrix is a lightweight material or a heavy material, and an unshielded counter (C) is used to measure a lightweight material. Is a device for detecting fissile material, characterized in that the presence of hydrogenated substances can be determined. 2. The fissile material detection device according to claim 1, wherein the shield installed in front of the shield equipped counter (C ′) is made of cadmium.